Battery low-voltage cutoff circuit

1. A low voltage cutoff circuit comprises: a switching device having a control terminal, a current sourcing terminal and a current sinking terminal; a resistor coupled between the control terminal and a first terminal of a battery; a mechanical switch coupled in series with the battery and a first output terminal of the low voltage cutoff circuit and connected, without any intervening switching device and without any intervening battery, to the resistor that is coupled to the control terminal of the switching device with the low voltage cutoff circuit having in addition to the first output terminal, a second output terminal connected to the current sourcing terminal of the switching device, with the first and second output terminals of the low voltage cutoff circuit configured to accept connections to terminals of a device load.

2. The low voltage cutoff circuit of claim 1 wherein the resistor has a resistance value provided in accordance with a maximum drain current of the switching device.

3. The low voltage cutoff circuit of claim 1 wherein the resistance value of the resistor is approximately 300 ohms.

4. The low voltage cutoff circuit of claim 1 wherein the switching device is a bi-polar transistor and where the resistance value of the resistor is approximated by (Vbattery min−Vbe)/Ib , where Vbe is the base to emitter junction voltage drop and Ib is the base current needed to saturate the collector-emitter junction.

5. A power source comprises: a battery; and a low voltage cutoff circuit, the low voltage cutoff circuit comprising: a switching device having a control terminal, a current sourcing terminal and a current sinking terminal; a resistor coupled between the control terminal and a first terminal of the battery; a mechanical switch coupled in series with the battery and a first output terminal of the low voltage cutoff circuit and connected, without any intervening switching device and without any intervening battery, to the resistor that is coupled to the control terminal of the switching device; and a second output terminal coupled to the current sourcing terminal of the switching device, with the first and second output terminals configured to accept connections to terminals of a device load.

6. The power source of claim 5 wherein the switching device is a bipolar transistor, and wherein the control terminal is a base electrode of the bipolar transistor, the current sourcing electrode is a collector electrode of the bipolar transistor and current sinking terminal is a emitter electrode of the bipolar transistor.

7. The power source of claim 5 , further comprising: at least one junction device coupled in series with the control terminal of the switching device and the resistor.

8. The power source of claim 5 wherein the junction device is a diode coupled in series to increase the effective voltage required on the control terminal to allow current flow between the current sinking and sourcing terminals.

9. The power source of claim 5 wherein the junction device is a second switching device coupled with the switching device in a Darlington configuration.

10. An electronic device comprises: an electrical component powered by a battery; a low voltage cutoff circuit, configured to couple to a battery, the low voltage cutoff circuit comprising: a switching device having a control terminal, a current sourcing terminal and a current sinking terminal; a resistor coupled between the control terminal and a first terminal of the battery; a mechanical switch coupled in series with the battery and a first output terminal of the low voltage cutoff circuit and connected, without any intervening switching device and without any intervening battery, to the resistor that is coupled to the control terminal of the switching device; and a second output terminal coupled to the current sourcing terminal of the switching device, with the first and second output terminals configured to accept connections to terminals of the electrical component.

11. The electronic device of claim 10 , further comprising: a housing including a compartment to receive the battery.

12. The electronic device of claim 11 further comprising the battery in the compartment and wherein the battery is an alkaline cell, Zn-Carbon cell or a rechargeable cell.

13. The electronic device of claim 10 wherein the switching device is a bipolar transistor, the control electrode being a base electrode of the bipolar transistor, the current sourcing electrode being a collector electrode of the bipolar transistor and current sinking terminal being a emitter electrode of the bipolar transistor.

14. The electronic device of claim 10 , further comprising: at least one junction device coupled in series with the control terminal of the switching device and the resistor.

15. The electronic device of claim 10 wherein the junction device is a diode coupled in series to increase the effective voltage required on the control terminal to allow current flow between the current sinking and sourcing terminals.

16. The electronic device of claim 10 wherein the junction device is a second switching device coupled with the switching device in a Darlington configuration.

17. The electronic device of claim 12 wherein the mechanical switch coupled in series when open, is disposed to prevent current flow from the battery to the control terminal and the current sourcing terminal of the switching device.

18. The electronic device of claim 14 wherein the at least one junction device comprises a first number of diodes substantially equal to a second number of cells in the battery.

19. A low voltage cutoff circuit comprises: a switching device having a control terminal, a current sourcing terminal and a current sinking terminal; a resistor coupled between the control terminal and a first terminal of a battery; a mechanical switch coupled in series with the battery and a first output terminal of the low voltage cutoff circuit and connected directly, without any intervening element, to the resistor that is coupled to the control terminal of the switching device with the low voltage cutoff circuit having in addition to the first output terminal, a second output terminal connected to the current sourcing terminal of the switching device, with the first and second output terminals of the low voltage cutoff circuit configured to accept connections to the terminals of a device load.